environmental problems. Too much nitrogen and phosphorus in the water leads to large algae growth, called algalblooms . These algalblooms can severely reduce or eliminate oxygen in water, creating dead zones and harming aquatic life, as well

Mississippi River, which flows into the Gulf of Mexico. There it can potentially contribute to the presence and growth of algalblooms and the 7,000-square-mile hypoxic zone that has developed off the coast of Louisiana and Texas. MWRD recognized

have the opposite effect by depleting aquatic growth. Surface water affected by excess nutrients can become green with algalblooms (a process called eutrophication), have an unpleasant odor, and create anaerobic conditions, which depletes the

much nitrogen and phosphorus in the water causes algae to grow faster than ecosystems can handle. Large growths of algalblooms contribute to the creation of hypoxia or "dead zones" in waterways where oxygen levels are so low that most aquatic

day desalination plant in Sfax in May 2015... Algae Biofuel: could it eliminate the need for wastewater aeration? Algalblooms have always proved a challenge for the water industry. Yet could this organic matter,with the help of wastewater

drinking water utilities to remove toxins produced by algalblooms , Donahue said, but he also noted that the technology ..... including development of materials on protecting against algalblooms , training on protocols for responding to drinking water

and the southern United States, where drinking water is affected”. &amp;nbsp; ### Seek and Destroy: AlgalBlooms Earlier this year, a European Union-backed consortium commenced work on a 30-month project to develop a robotic